Human body can digest only a few sugars with a low degree of polymerization. The rest of the carbohydrates become food for gastrointestinal symbiotic bacteria, affecting gut microbiota composition and human health. Adlay is a medicinal and food homologous crop. The study aims to determine whether dehulled adlay-derived polysaccharide regulates gut microbiota and barrier function to against Clostridioides difficile infection. Major molecular weight of adlay polysaccharide is 27 kDa. The growth of next-generation probiotics were promoted by adlay polysaccharides. In colonic fermentation model, the ratio of C. difficile was decreased when adding the condition medium of adlay polysaccharides-treated fecal microbiota. In addition, adlay polysaccharide promoted the expression of tight junction proteins and mucin in intestinal cells. This study shows that adlay polysaccharide can be used as prebiotics to regulate microbiota and maintain barrier function, which has the potential to be developed as novel functional food ingredients to protect intestinal health.
Keywords: Clostridioides difficile infection; Degulled adlay; Gut barrier function; Gut microbiota; Next generation probiotics; Polysaccharides.
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